Patent application number | Description | Published |
20100123356 | RESONANCE MITIGATION SYSTEM AND METHOD - A system for reducing resonance from harmonic distortion in a high voltage power system is presented. The system includes a voltage damper coupled to the high voltage power system between a cable sheath and an earth connection. The voltage damper is configured to clamp voltage peaks. The system also includes a frequency shifter coupled across the voltage damper and configured to displace a resonance frequency of the high voltage power system. | 05-20-2010 |
20110101689 | METHOD AND APPARATUS FOR GENERATING POWER IN A WIND TURBINE - A power converter for a wind turbine including an array of switching devices and a control module having a current damping device. The control module is configured to control a switching behavior of the array of switching devices and to receive a current having a first frequency component from the wind turbine. The current damping device is configured to reduce an amplitude of the first frequency component. | 05-05-2011 |
20110137474 | METHOD AND SYSTEMS FOR OPERATING A WIND TURBINE - A method for controlling operation of a wind turbine included within a power generation and delivery system is described. The method includes measuring at least one operating condition of the power generation and delivery system. The method also includes transmitting, to a power limiter system, an operating condition feedback signal that corresponds to the operating condition. The method also includes analyzing the operating condition feedback signal to identify an occurrence of a grid contingency event and generating a real current command signal corresponding to an occurrence of a grid contingency event. The method also includes transmitting the real current command signal to a controller and applying the real current command signal to power converter performance to facilitate reducing pole-slipping. The method also includes storing, in a memory, at least one variable corresponding to the operating condition upon the occurrence of a grid contingency event. | 06-09-2011 |
20110140511 | ELECTRIC POWER TRANSMISSION SYSTEM FOR WIND TURBINE AND WIND TURBINE FARM AND METHOD FOR OPERATING SAME - A method of operating a wind turbine includes energizing at least a portion of a power conversion assembly via an alternating current (AC) power source. The method also includes converting AC power to direct current (DC) power having a DC component and an AC component via the power conversion assembly. The method further includes transmitting the DC component and the AC component through a DC power transmission line. The method also includes separating the DC component from the AC component. The method further includes transmitting the AC component to at least one wind turbine electrical device. | 06-16-2011 |
20110141773 | HVDC CONNECTION OF WIND TURBINE - A method and apparatus for connection of a wind driven turbine generator to an HVDC transmission line is provided that does not require transformation of the wind generated AC voltage to a nominal AC distribution grid frequency. An AC output from the turbine generator is increased in level and converted to HVDC for direct application to a HVDC transmission line. The wind turbine generated AC may be first increased in frequency via a matrix converter and then rectified or may be first rectified and increased in level by a high-voltage DC-DC converter circuit and then applied directly to the HVDC transmission line. | 06-16-2011 |
20110221280 | SYSTEM AND METHOD FOR CONTROL OF A GRID CONNECTED POWER GENERATING SYSTEM - A power generating system includes an energy source coupled to a DC link through a first power converter and a second power converter to couple the DC link to a power grid. A first controller in the power generating system regulates voltage on the DC link and a second controller regulates a parameter of the energy source. A dynamic parsing controller coupled to the first power converter and the second power converter selectively parses the output signals of the first and second controllers and generates operating commands for the first and second power converters based at least in part on the parsed output signals. | 09-15-2011 |
20120010759 | METHOD AND SYSTEMS FOR OPERATING A WIND TURBINE - A method for controlling operation of a wind turbine included within a power generation and delivery system is described. The method includes measuring at least one operating condition of the power generation and delivery system. The method also includes transmitting, to a power limiter system, an operating condition feedback signal that corresponds to the operating condition. The method also includes analyzing the operating condition feedback signal to identify an occurrence of a grid contingency event and generating a real current command signal corresponding to an occurrence of a grid contingency event. The method also includes transmitting the real current command signal to a controller and applying the real current command signal to power converter performance to facilitate reducing pole-slipping. The method also includes storing, in a memory, at least one variable corresponding to the operating condition upon the occurrence of a grid contingency event. | 01-12-2012 |
20130148393 | METHODS AND SYSTEMS FOR CONTROLLING A POWER CONVERTER - A controller for controlling a power converter is described. The controller includes an input configured to receive at least one grid feedback signal, a filter, and an output. The filter is configured to receive the at least one grid feedback signal and generate an output signal that does not deviate by more than a predefined amount from the at least one grid feedback signal. The output is configured to provide a voltage command signal to the power converter that is based at least partially on the output signal. | 06-13-2013 |
20130278308 | METHODS AND SYSTEMS FOR CONTROLLING A POWER CONVERTER - A stabilizer system associated with a power converter controller is described. The stabilizer system includes a regulator stabilizer configured to receive a phase locked loop (PLL) error signal and to generate a regulator stabilization signal based at least partially on the PLL error signal. The stabilizer system also includes a regulator coupled to the regulator stabilizer and a converter interface controller. The regulator is configured to receive the regulator stabilization signal, generate a first command signal, based at least partially on the regulator stabilization signal, that reduces system oscillations, and transmit the first command signal to the converter interface controller. | 10-24-2013 |
20140062085 | VOLTAGE CONTROL FOR WIND TURBINE GENERATORS - A voltage control system for a wind turbine generator may include a reactive power regulator configured to control reactive power production by the wind turbine generator by adjusting a voltage setpoint for the generator. The reactive power regulator may have a first time constant and the voltage setpoint may be defined between an upper limit and a lower limit. The system may also include a voltage limit regulator configured to adjust at least one of the upper limit or the lower limit for the voltage setpoint based on a voltage-related parameter. In addition, the system may include a voltage regulator coupled to the reactive power regulator. The voltage regulator may be configured to control real power production by the wind turbine generator based on the voltage setpoint. The voltage regulator may have a second time constant, wherein the first time constant is numerically greater than the second time constant. | 03-06-2014 |
20150061289 | SYSTEM AND METHOD FOR VOLTAGE CONTROL OF WIND GENERATORS - A method for reactive power generation for a wind turbine generator includes receiving a voltage command signal, and adjusting this voltage command signal as a function of the wind turbine reactive power. A reactive current is determined for the wind turbine generator in response to the adjusted voltage command signal and is transmitted to a controller of the wind turbine generator for generating a real and reactive power based on the reactive current command. | 03-05-2015 |
20150061290 | SYSTEM AND METHOD FOR VOLTAGE CONTROL OF WIND GENERATORS - A system and associated method for reactive power generation for a wind turbine generator includes receiving a higher-than-generator level voltage command signal. A reactive current is determined for the wind turbine generator in response to the voltage command signal and is transmitted to a controller of the wind turbine generator for generating a real and reactive power based on the reactive current command. A trim value may be generated and applied to the voltage command signal. | 03-05-2015 |